Locating and locking mechanism for machine-tool turrets



I Nov. 9, 1948.. M s. CUR' l'lS ,1

LOCATING A ND LOCKING MECHANISM FOR MACHINE TOOL 'I'URRETS Filed June 27, 1944 I e Sheets-Sheet 1 7 MYPON 5. Cum;

INVENTOR.

ATTORNEYS- Nov. 9, 1948. M. s. CURTIS LOCATING AND LOCKING MECHANISM 'FOR MACHINE TOOL TURRETS Filed June- 27, 1944 6 Sheets-Sheet 2 1 N VEN TOR. MYIPON .5 [2 5775 ATTORNEY5 M. s. cuR-rrs LOCAT'ING AND LOCKING MEC Nov. 9, 1948. 2,453,120

. HANISM 'FOR MACHINE TOOL TURRETS v 6 Sheets-Sheet 3 INVENTOR. Myra/v 5. (a/ens Filed June 27. 1944 Nov.9,1948. M s CURTIS 2,453,120

LOCATING A'ND'LOCKING MEGHANIS FOR MACHINE TOOL 'rummws 6 Sheets-Sheet 4 Filed June 27, 1944 INVENTOR. MY/aa/v 5 609775 I BY Nov. 9, 1948. M. s. C

. LOCATING AND LOCK URTIS ING MECHANISM I 6 Sheets-Sheet 5 FOR MACHINE TOOL TURRETS Filed June 27, 1944 :INVENTOR. I 5. 6027-1:

- 3 ATTORNEY M M. LOCATING AND LOCKING MECHANISM S. CURTIS Nov; 9, 1948.

FOR MACHINE TOOL TURRETS 6 Sheets-Sheet 6 Filed June 27, 1944 INVEN TOR. Myeo/v 5 62/2775 Patented Nov. 9, 1943 MT FFICE LOGATING AND LOCKIN MECHANISM FOR MACHINE-T061 TURRETS Myron S. Curtis, Cleveland, Ulric, assignor to The Warner & Swasey Company, Cleveland, Qhio, a corporation of Qhio Application [lune 2'1, 194 i, Serial No. M2290 a claims. (o1. zsnsoi "Iihe present invention relates to machine tools and more particularly to power-operated indexing,ldcating, locking and clamping mechanisms for indexible members, such as the indexible turret of a machine tool or the like.

The principal object of the invention is the provision of an improved, novel and efficient PQwer-operated mechanism for indexing, locating, locking and clamping an lndexihle member of, a. machine tool or the like, which mechanism is simple in construction, automatic, reliable and positive in operation, relatively inexpensive to the spacer assembly of the turret locatinglmeche manufacture, readily assembled and adjusted,

substantially free from wear, and capable of accurately locating, locking and securely clamping the member in each of its indexed positions. ,The invention resides in certain constructions and combinations and arrangements of parts, and further objects and advantages willbe apparent to those skilled in the art to which the invention relates from this specification, including the following description of the, preferred embodiment of the invention, described with reference to the accompanying drawings forming a part hereof, in which similar reference characters designate corresponding parts throughout the various Views, and in which: i

Fig. 1 is a fragmentary plan viewof the turret slide portion of a turret lathe embodying the present invention.

Fig. 2 is a sectional view with portions in elevation, approximately on the line 2 2 of Fig.

Fig; 2 (Sheet 2) is a fragmentary view of a portionof Fig. 2, with parts shown in elevation.

bed and turret slide shown in Figs. 1 and 2 with portions of the turret slide and turret clamping ring in section, approximately on the line 4-4 of .Fig'. 18 (Sheet 6).

Figs. 5 (Sheet 3), 6 (Sheet 4), and 7 (Sheet i) are detached views of the operating elements shown in Fig. 3, showing different positions as- V Fig.j 11 (Sheet 5) is a detached plan viewof anism shown in Fig. 9.

Fig. 12 (Sheet 5) is a side. elevational wiewof the spacer assembly of the turret locating nechanlsm shown in Fignll. Fig. 13 (Sheet 3) is a detached sectiohal view of the adjustable locking assembly of the turret locating mechanism shown ,in Fig. .9. f h

Fig. i l (Sheet 6) isa sectional =view, with .Lpora tions in elevation, approximately on the line i t-la of Fig. 9. l 1

Figs. l5, l6 and 17 (Sheet '5) are fragmentary views similar to Fig. ,9 showing certain ,of ,the operating elements in different successive opera,- tive positions. l

Fig, 18 (Sheet 6) is a detached plan vieyvlof the turret clamping ring with portionsgin section ap proximately on the line lB-rjB off'ig. 4.. f

Fig. 19 (Sheet 6) is a sectional view, withpqr- ,tions in elevation, approximately ,on the line iii-45 of Fig. 9,.and Fig. 20 (Sheet 6.) is a view similar to Fig. 19, but showing the operating elements in a different operative position.

Aithoughthe invention is applicable to various types of machine tools, and the like, having indexlble members, it is herein shown andldescribed by way of illustration as embodied in ,a turret lathe. Lathes of the type referred to are well known in theartandlonly those parts which arenecessarytoa full understanding of the pres ent invention arashown and describedin detail.

Referring to the drawings and particularly Figs. 1 and 2 thereof, the referencecharacter A designates generally the bed of a turret lathe,

whichbed is provided with the usualhorizontal parallel ways it? and ll upon which the turret slide B is supported for movement towards and from aheadstock located atonelendof thebed and which headstock carries. a rotatable work spindle. The turret slide B is shown in this .instance as provided with a pentagonal turret including a downwardly extending tubularalike projectionlii, see Fig. 2, having .an annular I radial flange it intermediate the ends thereof,

which turret is indeiiible about a vertical center post .54 fixed to the turret slideand .locatedlinthe center of an annular recess ,idinthemurret slide and into whichrecessthe projection 12 extends. The projection I2 is of less diameter .thanthe diameter ofpthe turret proper and the shoulder is formed by the reduction .in .diameter rests upon the upper end ofacylindrlcalflange insurrounding the recess l5.

The .tools employed for performing the ,ilariolls Operations are attached to the different faces of the turret in a well known manner, and the turret is intermittently indexed by indexing mechanism hereinafter fully described to successively bring the Various faces into a position opposite the spindle in the headstock. The indexing operation is performed when the turret slide is in a retracted position with the tools clear of the work. For the purpose of accurately locating the turret in its various indexed positions the annular flange I3 on the projection i2 is .provided with a plurality of vertical slots or splines 28, see Fig. 9 (Sheet in the present instance five, which form five radial projections 2! having vertical sides forming abutments 22, 23 adapted to be engaged by the spacer block 24 of a locating assembly D and the locking member of an adjustable locking assembly E, respectively. The block 24 and member 25 are moved in a manner and by mechanism hereinafter described to disengage and reengage the sides 22 and 23 of the projections 2| in predetermined timed relation to the indexing of the turret C. The turret C is located and locked in indexed positions by the block 24 and locking member 25 and their assoelated parts which will be described hereinafter in detail.

The turret C, as shown, is adapted to be periodically indexed by rollers 26 (see Figs. 2 3, 5, 6 and '7) supported for rotation on pins 21 carried by and projecting from the upper side of a disk 28, which index rollers are adapted to engage within radially extending index slots 30 in the underside of the projection [2 upon rotation of the disk 28. In the present instance five slots 30 are employed corresponding with the five faces of the turret C and the turret is indexed one-fifth of a, complete rotation upon each one-half revolution of the disk 28 which accounts for the use of two rollers 28. Because of the employment of the two rollers 26 it is possible to so time the movement of the index rollers and the turret locating, locking and clamping mechanisms that the turret is under the control of one or the other thereof at all times.

The disk 28 is supported for rotation about a vertical shaft 3| fixed in the turret slide B and has a bevel gear 32 formed on the under face thereof through the medium of which the disk is rotated (see Figs. 2. and 2 The gear 32 is continuously in mesh with a bevel pinion 33 fixed to one end of a shaft 34 rotatably supported in a boss 35 formed integral with an interior web 36 in the turret slide B. A spur gear 31 fixed to the opposite end of the shaft 34 is continuously in mesh with a spur pinion 38 having an elongated hub through the medum of which it is rotatably supported in the web 36 but held against axial movement. The gear 38 is splined 'to a longitudinally extending shaft 48 rotatably supported in the bed A and adapted to be peri odically connected by a magnetic clutch designated generally by the reference character F, to a continuously driven gear cluster compris- "ing the gears 41, 42. The gear 4! is continuously in mesh with a gear, not shown, operatively connected to and driven by any suitable driving means and the gear 42 is continuously in mesh with a plurality of planet gears 43 which are rotatably supported on stub shafts 44 carried by a spider member 45 which is keyed to the splined shaft 40 adjacent to the right hand end thereof as viewed n Fig. 2. The splined shaft 40 is provided with a disk 46 fixed to a spacer member 'AI'keyed to the shaft 40 and interposed between 4 the disk 43 and the hub portion of the spider member 45. The magnetic clutch F is interposed between the adjacent sides of the disk 46 and the left hand or rear side of an internal gear 48 supported for rotation upon the hub of the spider-member 45 and comprisestwo coils 50 and 5|, one located adjacent to the disk 48 and the other adjacent to the internal gear 48.

The teeth of the internal gear 48 are continuously in mesh with the planet gears 43 and constitute the orbit gear of the planetary gear transmission comprising the sun gear 42, the planet gears 43 and the orbit gear 48. The construction is such that when the coil 58 is energized and the coil 5| is deenergized the disk 46 is attracted to the stationary frame 52 of the magnetic clutch F, with the result that the indexing mechanism including the splined shaft 40 is held stationary while the orbit gear 48 is rotated idly on the spider member 45. When the coil 58 is deeper-- gized and the coil 5| energized the orbit gear'48 is "attracted to the stationary frame 52 of the magnetic clutch and held against rotation with the result that the spider member 45 and, in

. turn, the indexing mechanism including the disk 28 etc. are rotated, the sun gear 42 rotating the pinions 43 which roll around the orbit gear 48.

The electric coil 58 of the magneticclutch F' is ordinarily maintained energized from the power lines 53, 54 by the normally closed contacts.55, 56 of a solenoid operated relay 5'! to holdthe indexing mechanism inactive and is deenergized to release the indexing mechanism and render the same active. The coil 5| is energized to drive the indexing mechanism upon actuation of the relay 5'! to open the normally closed contacts 55, 56 and close the normally open contacts 60, 6| thereof. The operating solenoid 62 of the relay 5'! is energized by the momentary closing of .a normally open push button switch 63 located at some convenient place about the machine and said switch is manually operated by the operator when he desires to index the turret.

When the turret begins to rotate a holdingcircult for the operating solenoid 62 is established by the closing of a normally open limit switch 64 located adjacent to the disk 28, the plunger of which switch engages within a slot or recess 66 in the periphery of the disk 28 when the turret is locked and clamped in indexed position, but which rides on the periphery of the disk during the indexing of the turret. The switch 64 is in series circuit with normally open-contacts 61.68 of the relay 51, which contacts prevent operation of the indexing mechanism in-th'e event the plunger 85 of the switch 64 is accidentally depressed or is depressed incident to manual rotation of the turret. If desired, provision may be made for automatically actuating the switch 63 to energize the operating solenoid 52 of the relay 5! in timed relationto thereciprocation of the turret slide B towards and from the spindle in the headstock.

The upper surface of the disk 28'is provided with an irregular continuous cam groove 10,- the opposite sides of which are alike since the disk 28 makes only one-half of a revolution during each indexing operation. The groove 10 is coritinuously engaged by a roller 1| supported for rotation about a pin 12 fixed to a lever 13 and projecting downwardly from the underside thereof. The roller 1! is located approximately midway between the ends of the lever 13 and the lower end thereof, as viewed in Fig. 3, is pivotally connected to the turret slide B by a pivotpin directions.

.The opposite end of the lever 13 is provided with a rollerlocated at its upper side and strppetted for rotation about a pin projecting from theflever. The roller 15 engages within a slot 15* in the under side of a horizontal operatii -grown for the turret locating and clamping mechanisms. The operating rod ll is slidably supported in theturret slide and the slot 16 extends'transversely of the length thereof, which ranges shown, is parallel with the longitudinal eenterline'ofthe lathe.- The constructionis such that upon each :half'rotation of thedisk 28 the operating rod 11 makes one complete reciprocation-L- The operating rod l'l is shown in Fig. 9 (=Sheet5) in its extreme right hand position with oneoftheiocating projections 2| located and lockedbetween the locating block 24 and the adjustable locking member 25.

addition to the locating block 24 the locatlngmecshanis m comprises a stationary but adjustebiesto memb-eria (see Figs. 9, 15, 16 and 17, 'sheet fi) threaded into a suitable aperture in the turi'etslide, the inner end of which stop forms a positive abutment for the locatin block 24 when in *operative position. avhleh "forms a part of the'locating assembly I) is enemy connected by a dovetailed tongue and grooveconnectionto the inner end of a member ljllislidably supported in the turret slide for movenrent transverselyof the operating rod Ti and thefstationary stopmember 18. The member 80 is 're'ciprocated in timed-relation to the indexing th-e'turret first to Withdraw the block 24 from a position intermediate the stationary stop 18 and the"locating projection 2 engaged thereby to permit rotation or indexing of the turret, and

then to project the same into the path of the next following locating projection. This reciprocation of the member 80 is accomplished by a longitudinally extending projection or tongue 8! formed on the under side of the operating rod l'i faces 82, "83onopposite sides thereof, which cam surfaces cooperate with similarly inclined cam surfaces 84, 85 on the'member 80 formed in the upper-side thereof by an irregularly shaped slot whenin projected position. The cam surfaces 182, '83 and 84, 85 are so constructed as to efieot p'ositive movement of the member 86 in both P The locking assembly E is slidably supported in :an iaperture Q81 in the turret slide, which aper ture is in line with the aperture within which is mounted the stationary stop 18 and the locking member of thisassembly comprises a shank 8&3

The locating block it and which includes transverselyinclined cam surposition shownin Fig. 16 causes substantially simultaneously stop member '58 is madeadjustable, as previously 6 protection: mars engagement with .theLend-tof the tooth-like projection m2, -whichlisxthe positionshown Fig. 9 (Sheet 1'5 the lockingmember 2 5-is projected its maximum distance towards the stationary stop member 18 and the end-there of is in "engagement with the right hand abutment 23 or a locating projection 21, while the left hand sideor abutment 22 of said locating pro'jec tion in engagement with the locating bllock fl which, in turn, is in engagement with the stationary stopmemb-er'l flr When the-operatingrod ll is in the position-referred to rotationof' the toggle lever fiiiin a direction to release the looking member 25 is prevented by the engagement of theends ofthe tooth-likeprojections"H3 2, 1-03. Theconstruction is suchth'at the turret C=-is located and looked securely in one of its indexed positions against rotation in either direction.

As will be hereinafter explained movement of the operating rod W towards the left from the position shown in-Fig. 9 causesthe tooth-like projection N33 to clear the tooth-like projection M2 on the toggle lever 95 and to engage the tooth like projection It! thereon, see Figglfi (Sheet5) whereupon continued movement of the operating rod it toward the left rotates the toggle lever 95 from the position shown in Fig. l5to the position shown in Fig. 16, Withdrawing the locking member 25 to a position where it will not inter fare-with rotation of the turret C. Reference to Fig: 15, will disclose thataslight continued move- .ment toward the left of the rod 11 first causes a slight retraetion of the locking member 25 before the cam surfaces 182 andfl i cooperate tostartre traction of the locating block .2 4, that is, thepressure of members on the turret is relieved before block 2d moves, thu'sreducing wear on the parts. Simultaneously, ,the locating block 24 is moved or withdrawn from the position shown in Fig. 15, to the position shown in Fig. 16. The movement of the rod T! to the left, from the positi n shown in Fig. 9 to the position shown in Fig. ,15 causes the turret to be unclamped by mechanism ,later to be described. Themovementof the .rod 17 to the left from the position shown in Fig. 15 .to the thelocking ,mem; ber 25 and the locating block 24 to be withdrawn The stationary stated, for the purpose of compensating for any wear which might occur and for varying readjusting the indexedpositions of the turret when desired The member iflfl is moved by the cooperating camsurfaces 83, .85 to project thelocating block .24 partially infront oi thepstationary stopmember '58 upon initial movement of the operating rod ll in the reverse or righthandflirectifln:see

"The'opposite end-of the'link 93 is pivotally con- "neoted' to one arm of a toggle lever 95 by a pin #6, which toggle lever is pivotally connected in- :termediate its ends to the turret slide B by a bear aingip'in 791. The free end of the toggle lever 95 has a groove I00 therein, which groove is similar zln sh' ape 'to an interdental space of a gear tooth. The :groove I00 is located between or formed by iprojections 1M, l02,which projectionsare somewhat. similar to gearteeth and cooperate with a gear"itoothelike-projectio 3310f the operating ii'oti iflz'lw llvhenathe outer :end .of the toothelike Fig.5}? Sheet v5). the block 25 ,is riully projected at substantiall the The construction"is such that same: time the locking member 2-5 engages the abutment 2,3 or" the locating projection then :in position to be engaged thereby. The tongue and ,groove connections between theblock 24 and the (member til'which permitsglimited relative movenient between these members lengthwise .Q-of the stationary stop member it allow the block 124 to shift slightly towards andfromthe end of the stop member 118 ;without;producing any, binding of the member in the aperture within which it is slidabl y supported.

; The engagement of each locating projection g2] ib'etweengthe locking member :25 i and :thelocating block '24 is-siorslockingzth'e turretLC inaccurately located-indexed position during each machining operation of the lathe.

A segmental clamping ring G comprising the segmental portions I05, I06 is provided for clamping the turret C onto the turret slide B, see Figs. 2, 4 and 18 (Sheet 6). The inner circumference of the segmental ring G is formed with conical uppcrand lower surfaces which engage similar conical surfaces on the turret proper and the flange I on the turret slide B, which conical surfaces act, when the clamping ring G is contracted, to draw the turret in a downward direction into tight engagement with the turret slide and to fixedly secure the turret and turret slide together. The respective ends of the segmental portions I05, I00 are offset radially and spaced a small distance apart to accommodate the connecting and operating mechanisms and to permit contraction of the clamping ring G. The forward projections ,IO'I, I08 of the segmental portions I05, I06 are provided with aligned apertures of different diameter, within which apertures a bolt I09 is located for pivotally connecting the segmental portion together. The left hand end of the bolt I09, see Fig. 18, is in the form of an enlarged eye and is located in the aperture in the projection I08, and is detachably secured therein by a transversely extending screw H0, the inner reduced end of which engages within the eye of the bolt. The right hand end of the bolt I09, extends through the projection I01 and is provided with a nut I II which affords means for adujsting the front ends of the clamping segments I05, I06

towards and from each other.

I I6 to a toggle lever I, which toggle lever is,

in turn, pivo-taliy connected to the projection I I2 by a screw H8, the inner reduced end of which projects through a suitable aperture in the toggle lever Ill. The pivot I I8 for the toggle lever III is intermediate the pivots H5 and H6 for the link II t, with the result that the clamping ring G is expanded or contracted upon rotation of the toggle lever I" about its pivot, depending upon the direction in which the toggle lever is moved.

For the purpose of operating the clamping ring the lower side of the toggle lever II! is provided with an elongated slot I20 formed by downwardly extending projections I2I, I22, which slot somewhat resembles an elongated interdental space of'a'gear and cooperates with an upwardly extending projection I23 on a member I24 secured in a groove in the top of the operating rod 11. Alternately the projection I23 may be formed integral with the operating rod 11. The projections I2I, I22 011 the toggle lever II I somewhat resemble gear teeth and the construction is such that when the operating rod I1 is in its extreme right hand position which is the position shown in Fig. 19, the toggle lever II! is in its extreme counterclockwise position with the right hand projection I2I riding upon the top of the projection I23 the clamping ring contracted and the turret securely clamped to the turret slide. Upon initial movement of the operating rod 11 towards the 1eit,see Fig. 19, incident to rotaand locked. As the movement oi the operati g I rod 'I'I continuesthe lefthandprojectionl the toggle lever II'I rides upon thetopjof projection I23. The length of theprojectio is such that the end of the projection.: -;I22 mains on the top of the projection l2 3 throug out the continued movement of the operat' g lever 'II towards the left. g i;

From the foregoing description it ;is:.lgel1eved that the operation of thepreferred embodiment of the invention shown and described abovewill be apparent. Suffice it to say that; when the turret slide B is in a position wherein-,thatpols are clear of the work pieceand the turret one of its indexed pisitions thevariouspan the locating, locking and clamping mechanisms are in the positions shown in Figs. 1, 2,13, 19. The operating rod I! is in itsiextreme hand position with the projection I03 enga-g g the end of the projection I02. and holding the toggle closed. One of the locating projections 225 is securely held between the lockingl 'rnember and the locating block 24 and thelatter is located in front of the stop '18. The clamp r ing G is contracted and the turret C secur y clamped to the turret slide B with no"thru st whatsoever on the center post. When the 'op'er ator desires to index the turret 0,...hemerely presses the start push button switch- 6 3,.,where; upon the turret clamping and turretloc'ating and locking mechanisms automaticailyfand by power are released and the turret inde ced do cated and locked and subsequently clamped. inn, new indexed position without further attention on the part of the operator. I v w When the push button switch E53 is. .depre s d', the operating circuit for the solenoid 62 of the relay 5'1 is established, opening the normally closed contacts 55, 56 and closing the normally open contacts 60, BI and iii, 68. Theopeningof the normally closed contacts 55, 56 deenergizes the coil of the magnetic clutch F, thus releasing or freeing the shaft 40. The closing oftheznor mally open contacts 60, 6| energizes the coil 5I of the magnetic clutch F, connectin the shaft .40 to the rotatinggear cluster 4|, 42 whereupontthe shaft 60 commences to rotate, which shaft in turn, rotates thedisk 28 through the medium, of the bevel gears 32, 33, shaft'34, and'spur gears 3?, 30. Initial rotation of the disk28 closes'athe normally open switch 64, whichqestablisheswa holdin circuit through contacts 61; 68 for; the operating solenoid 62 of the relay 51 and con tinues the indexing operation without the necessity of the operator maintaining the push/but;- ton switch 63 closed. As previously'state'd; the plunger 05 of the switch 64 rides out of thegroove 66 and engages the periphery ofthe disk 28: upon initial rotation thereof.

During the initial rotation of the .disk:2 8 .the roller ll travels along the portion a-of-the cam groove I0, which portion is of uniformkreidius producing a slight dwell, which dwell-isnecessary for leeway in stopping and sta-'rting.-,-Thereafter the cam roller II travels alongthe portionb tuated means for clamping said turret member to said frame.

-"3. In a machine tool or the like, the combination of a frame, an indexible turret member rotatably supported by said frame and comprising annular member or ring having .a plurality of oppositely facing abutments each corresponding with an indexed position of said turret member, power actuated means for indexing said turret member, a locking member" supported by said frame for reciprocation tangentially of said ring and adapted-to engage one face of one of said abutments for each indexed position of said turret member, power actuated means for reciproeating said locking member in timed relation to the indexing of said" turret member, a stationary stop memberin alignment with said locking membet, a locating member supported by said frame for movement transversely of the path of movement of said locking member and adapted to be interposed between said stop member and the opi' ositeffa-ce ofsaid one abutment for each indexed position-of said turret member, power actuated means for moving said locating member in timed relation to the indexing of said turret member, and power actuated means for clamping said turre't member to said frame.

4. In a machine tool or the like, the combina tion of a frame, an indexible turret member rotatably'supported by said frame and having a plurality of'spaced abutments each corresponding withan indexedflposition thereof, arotatable member supported by saidframe', power actuated means for rotating said member, means carried vbysaid rotatable member for indexing said t-urretmember, a locking member movably supported by said frame and adapted to engage one of said abutments for each index-ed position of said turretmember,-means for moving said locking membet in timed'relation to the rotation of said rotatable member, a stationary stop member in alignmentcwith-said locking member, a locatingmember s'upported by said frame for movement trans: .versel-y of the path of movement of said locking member and adapted to beinterposed between said stop member and said one abutment for each indexed position of said turret, means forlreciprocatingsaid locating member in timed relation to the rotation of said rotatable member, means for clamping said turret member to said-frame, and means'for actuating said last named means in timed relation to the rotation of said rotatable member. r t

5.In a machine tool or the like, the combination of a frame, an indexible turret member rotatably supported :by said frame and having a plurality of spaced abutmentsleach corresponding with an indexed position of the turret member,

a rotatable member supported by said, frame, meanscarriedby said rotatable member. forindexing s'aidturret member, a locking member movably supported by said frame and adapted to engage one of said abutments for each indexed position of said turret member, a stationary stop 7 member in alignment with said locking member,

a.;lo'cating member supported by said frame for frame, means on said slidable member for reciprocating said locking member and said locating member and for actuating said last named means,

nation of a frame, an indexible turret-member rotatably supported by said frameand having a abl'e member, means on said rotatablemembr plurality of spaced abutments' each correspond ing to an indexed position of the turret member; a rotatable member supported by said frame; power actuated means for rotating said rotate cooperating with said turret member for indexa ing the same, a locking member slidably 'sup -i ported in said frame and adapted to engage one of said abutments for each indexed-positiona of said turret member, a stationary stop member in alignment with said locking member, a locate: ing member slidabl supported in said frame-for movement transversely of the path of the. moves ment of said lockingmember and adaptedto be interposed between said stop member and said one abutment for each indexed position ofsaid turret member, a clamp ring for clampingvsaid turret'member to said frame, a slidableumem ber supported in said frame, means'on saidislide able member for reciprocating said locking member and said locating'member'and'for actuw' ating said clamp ring, and means for oper-; atively connecting said rotatable 'm'emberand said slidable member whereby said slidable'mema her is actuatedin timed relation to the rotation of said rotatable member. 1 g

7. In a machine tool or the like, the combina; tion of a frame, an indexible'turret. member :ro ij tatably supported by. said frame and having a plurality of spaced abutments and a plurality of radial grooves with each abutment and each groove correlated to an indexed, position of the turret member, a disk-like member supported; by

said frame for rotation about anaxis parallel to the axis of rotation of said turret member, means on said disk-like member cooperating withsaid grooves in said turret member for indexing the same, a locking member slidablysupported in said frame and adapted to engage oneof said abutments for each: indexed position of said turretmember, a stationary stop member in align: ment with said lockin member, alocatingmeim ber slidably supported in said frame for movement transversely of the path of the movement of said locking member and adaptedto be inter posed between said stop 'memberlandfisaidaone abutment for each indexed position of said1tur retmember, a clamp rin for'clamping saiditur ret member to said frame, a rod-like member 'slidably supported in said frame'for movement tangentially of said turret member, means :on saidrod-like member for reciprocating said look ing member and saidlocating memberand'for contracting said clampring, a lever'operatively "connected to said disk-like member and'sa-id rod-likemember whereby said rod 'lik e'member is'recipro cated upon rotation of said disk-like indexed position of said indexible member, "a

movable locating member for engaging the opposite side of said one abutment in each indexed position of the indexable member, a stationary stop member engaging said locating member. and operative connections between said rotatable element and said locking member and said locating member and including a cam groove in said element, a rockable lever provided with a roller engaffiing in said groove, a reciprocating member operatively connected with both said locking member and said locating member and acting to thrive the same to and from locking and ion, and an operative connection lever and said reciprocating memmovement of said lever by said d rotatable element actuates said member.

ine tool as defined in claim 8 and cans for clamping said indexible various indexed positions, and op- I ctions between said clamping means and said-rotatable element and including said 14 cam groove, roller and lever and reciprocating member, and operating means interconnecting the reciprocating member and the clamping means.

MYRON S. CURTIS.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS 

